Low Power Battery Mode for Wireless-Enabled Device Prior to Commissioning

1. A lighting control device, comprising: a battery; a processor; at least one radio frequency (RF) transceiver for wireless communications; and at least one of a detector or a button; wherein the processor is configured to operate the wireless lighting control device to: remain in a low power mode that consumes less power from the battery than a normal operations mode until the processor receives a trigger signal from the detector or the button to initiate commissioning of the lighting control device; awaken from the low power mode to consume additional power from the battery when the trigger signal is received; and in response to awakening from the low power mode: transmit a packet to connect to a commissioning device over a commissioning network via the at least one RF transceiver; and in response to transmitting the packet to connect to the commissioning device over the commissioning network, receive a commissioning message from the commissioning device to enable commissioning of the lighting control device to operate over a wireless lighting control network.

2. The lighting control device of claim 1 , wherein: transmitting the packet to connect to the commissioning device and receiving the commissioning message from the commissioning device pairs the lighting control device with the commissioning device over a commissioning network logically separate from the wireless lighting control network.

3. The lighting control device of claim 2 , wherein the transmitted packet to connect to the commissioning device over the commissioning network is a wireless transmission of an advertising packet to pair with the commissioning device.

4. The lighting control device of claim 3 , wherein the advertising packet to connect to the commissioning device is transmitted a predetermined number of times over a predetermined time period.

5. The lighting control device of claim 1 , wherein: in response to receiving the commissioning message, the lighting control device is commissioned by the commissioning device to wirelessly communicate with a luminaire, a sensor, or a switch over the wireless lighting control network through the at least one RF transceiver.

6. The lighting control device of claim 5 , wherein in response to commissioning of the lighting control device by the commissioning device, the processor is further configured to provide wireless control of the luminaire over the wireless lighting control network through the at least one RF transceiver.

7. The lighting control device of claim 6 , wherein the wireless control includes turning the luminaire on/off, dimming the luminaire up/down, scene selection for the luminaire, or a sensor trip event.

8. The lighting control device of claim 1 , wherein the lighting control device is configured as a sensor or a switch.

9. The lighting control device of claim 1 , wherein: the at least one RF transceiver includes: a first band radio transceiver for wireless communications over the wireless lighting control network; and a second band radio transceiver for wireless communications over a commissioning network, the second band being different from the first band.

10. The lighting control device of claim 1 , wherein the processor is further configured to transition the lighting control device back to the low power mode after awakening in event of no commissioning before expiration of a predetermined time interval.

11. The lighting control device of claim 1 , wherein: upon awakening from the low power mode, the processor and the at least one RF transceiver complete commissioning of the lighting control device; and upon completing commissioning of the lighting control device, the lighting control device including the processor and the at least one RF transceiver, enters the normal operations mode awaiting a lighting related input via the detector or the button.

12. The lighting control device of claim 1 , wherein: the lighting control device includes a timer; and the processor is configured to operate the timer to wake up to operate the detector to sense for motion detection in a vicinity of the lighting control device.

13. The lighting control device of claim 1 , wherein the low power mode consumes less than or equal to 5 micro-amperes of electrical current.

14. The lighting control device of claim 1 , wherein the low power mode consumes less than or equal to 1 micro-ampere of electrical current.

15. The lighting control device of claim 1 , wherein: the lighting control device is a wall switch that includes the button to allow a user to generate the trigger signal to awaken the wall switch from the low power mode; and once commissioned, the button allows the user to control lighting operation of a luminaire over the wireless lighting control network.

16. The lighting control device of claim 1 , wherein: the processor is configured to enter the lighting control device into a normal sleep mode after commissioning that consumes more power than the low power mode but less power than the normal operations mode.

17. The lighting control device of claim 1 , wherein: the lighting control device includes the detector and the detector is configured to detect motion; the lighting control device is configured as an occupancy sensor; and the processor is configured to: awaken the occupancy sensor from the low power mode upon motion detection; and upon commissioning of the lighting control device by the commissioning device, control a luminaire over the wireless lighting control network based on the detected motion.

18. The lighting control device of claim 1 , wherein: the processor is further configured to awaken the lighting control device from the low power mode in response to a combination of trigger signals from multiple buttons or detectors.

19. A method comprising: maintaining a lighting control device in a low power mode that consumes less power from a battery than a normal operations mode until receiving a trigger signal to initiate commissioning of the lighting control device; awakening the lighting control device from the low power mode to consume additional power from the battery when the trigger signal is received; and in response to awakening the lighting control device from the low power mode: transmitting a packet to connect to a commissioning device over a commissioning network via at least one RF transceiver; and in response to transmitting the packet to connect to the commissioning device over the commissioning network, receiving a commissioning message from the commissioning device via the at least one RF transceiver to enable commissioning of the lighting control device to operate over a wireless lighting control network.

20. The method of claim 19 , wherein transmitting the packet to connect to the commissioning device and receiving the commissioning message from the commissioning device pairs the lighting control device with the commissioning device over a commissioning network.